Flow Cytometry: Interesting Tool for Studying Binding Behavior of DNA on Inorganic Layered Double Hydroxide (LDH)

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

  • Arne Burzlaff
  • Simone Brethauer
  • Cornelia Kasper
  • Björn Oliver Jackisch
  • Thomas Scheper

Organisationseinheiten

Externe Organisationen

  • Süd-Chemie AG
Forschungs-netzwerk anzeigen

Details

OriginalspracheEnglisch
Seiten (von - bis)65-69
Seitenumfang5
FachzeitschriftCytometry Part A
Jahrgang62A
Ausgabenummer1
PublikationsstatusVeröffentlicht - 11 Okt. 2004

Abstract

Background: A new method was established to characterize the binding kinetics of DNA toward layered double hydroxides (LDHs). The setup consisted of a newly developed sampling tube that allows the injection of analyte during the flow cytometric measurement. Methods: Layered double hydroxides consist of cationic metal hydroxide layers and exchangeable interlayer anions. This negatively charged structure permits biomolecules such as DNA to adsorb, and a so-called DNA-LDH hybrid is formed. The hydroxide layers can be removed in acidic media and the DNA will be released. CERATOFIX® (a registered trademark of SüdChemie AG NA that belongs to the family of LDHs, produced by Süd-Chemie AG). The chemical structure can be summarized as [Mg 2Al(OH)6](CO3)0.5. The binding capacity and kinetic characteristics of different types of CERATOFIX®NA for a model DNA was determined by flow cytometry. Results: The static binding capacities of the different LDHs were determined after 1- and 16-h incubation with DNA solution, showing different binding patterns between the LDH materials. The binding kinetics were revealed by flow cytometric measurements in short-term and long-term kinetic experiments, showing that the majority of DNA adsorbs within the first 60 s. Conclusions: DNA removal from cell culture supernatants is one of the major concerns in downstream processing. Due to the anion exchange capabilities of LDHs it seemed a very interesting approach to use these materials for binding of DNA for elimination purposes.

ASJC Scopus Sachgebiete

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Flow Cytometry: Interesting Tool for Studying Binding Behavior of DNA on Inorganic Layered Double Hydroxide (LDH). / Burzlaff, Arne; Brethauer, Simone; Kasper, Cornelia et al.
in: Cytometry Part A, Jahrgang 62A, Nr. 1, 11.10.2004, S. 65-69.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Burzlaff A, Brethauer S, Kasper C, Jackisch BO, Scheper T. Flow Cytometry: Interesting Tool for Studying Binding Behavior of DNA on Inorganic Layered Double Hydroxide (LDH). Cytometry Part A. 2004 Okt 11;62A(1):65-69. doi: 10.1002/cyto.a.20085
Burzlaff, Arne ; Brethauer, Simone ; Kasper, Cornelia et al. / Flow Cytometry: Interesting Tool for Studying Binding Behavior of DNA on Inorganic Layered Double Hydroxide (LDH). in: Cytometry Part A. 2004 ; Jahrgang 62A, Nr. 1. S. 65-69.
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abstract = "Background: A new method was established to characterize the binding kinetics of DNA toward layered double hydroxides (LDHs). The setup consisted of a newly developed sampling tube that allows the injection of analyte during the flow cytometric measurement. Methods: Layered double hydroxides consist of cationic metal hydroxide layers and exchangeable interlayer anions. This negatively charged structure permits biomolecules such as DNA to adsorb, and a so-called DNA-LDH hybrid is formed. The hydroxide layers can be removed in acidic media and the DNA will be released. CERATOFIX{\textregistered} (a registered trademark of S{\"u}dChemie AG NA that belongs to the family of LDHs, produced by S{\"u}d-Chemie AG). The chemical structure can be summarized as [Mg 2Al(OH)6](CO3)0.5. The binding capacity and kinetic characteristics of different types of CERATOFIX{\textregistered}NA for a model DNA was determined by flow cytometry. Results: The static binding capacities of the different LDHs were determined after 1- and 16-h incubation with DNA solution, showing different binding patterns between the LDH materials. The binding kinetics were revealed by flow cytometric measurements in short-term and long-term kinetic experiments, showing that the majority of DNA adsorbs within the first 60 s. Conclusions: DNA removal from cell culture supernatants is one of the major concerns in downstream processing. Due to the anion exchange capabilities of LDHs it seemed a very interesting approach to use these materials for binding of DNA for elimination purposes.",
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AU - Brethauer, Simone

AU - Kasper, Cornelia

AU - Jackisch, Björn Oliver

AU - Scheper, Thomas

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N2 - Background: A new method was established to characterize the binding kinetics of DNA toward layered double hydroxides (LDHs). The setup consisted of a newly developed sampling tube that allows the injection of analyte during the flow cytometric measurement. Methods: Layered double hydroxides consist of cationic metal hydroxide layers and exchangeable interlayer anions. This negatively charged structure permits biomolecules such as DNA to adsorb, and a so-called DNA-LDH hybrid is formed. The hydroxide layers can be removed in acidic media and the DNA will be released. CERATOFIX® (a registered trademark of SüdChemie AG NA that belongs to the family of LDHs, produced by Süd-Chemie AG). The chemical structure can be summarized as [Mg 2Al(OH)6](CO3)0.5. The binding capacity and kinetic characteristics of different types of CERATOFIX®NA for a model DNA was determined by flow cytometry. Results: The static binding capacities of the different LDHs were determined after 1- and 16-h incubation with DNA solution, showing different binding patterns between the LDH materials. The binding kinetics were revealed by flow cytometric measurements in short-term and long-term kinetic experiments, showing that the majority of DNA adsorbs within the first 60 s. Conclusions: DNA removal from cell culture supernatants is one of the major concerns in downstream processing. Due to the anion exchange capabilities of LDHs it seemed a very interesting approach to use these materials for binding of DNA for elimination purposes.

AB - Background: A new method was established to characterize the binding kinetics of DNA toward layered double hydroxides (LDHs). The setup consisted of a newly developed sampling tube that allows the injection of analyte during the flow cytometric measurement. Methods: Layered double hydroxides consist of cationic metal hydroxide layers and exchangeable interlayer anions. This negatively charged structure permits biomolecules such as DNA to adsorb, and a so-called DNA-LDH hybrid is formed. The hydroxide layers can be removed in acidic media and the DNA will be released. CERATOFIX® (a registered trademark of SüdChemie AG NA that belongs to the family of LDHs, produced by Süd-Chemie AG). The chemical structure can be summarized as [Mg 2Al(OH)6](CO3)0.5. The binding capacity and kinetic characteristics of different types of CERATOFIX®NA for a model DNA was determined by flow cytometry. Results: The static binding capacities of the different LDHs were determined after 1- and 16-h incubation with DNA solution, showing different binding patterns between the LDH materials. The binding kinetics were revealed by flow cytometric measurements in short-term and long-term kinetic experiments, showing that the majority of DNA adsorbs within the first 60 s. Conclusions: DNA removal from cell culture supernatants is one of the major concerns in downstream processing. Due to the anion exchange capabilities of LDHs it seemed a very interesting approach to use these materials for binding of DNA for elimination purposes.

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